Base Station Apparatus for Efficient Connection Processing, Terminal Apparatus, and Control Method

This application is a continuation of International Patent Application No. PCT/JP2024/016873 filed on May 2, 2024, which claims priority to and the benefit of Japanese Patent Application No. No. 2023-079344 filed on May 12, 2023, the entire disclosures of which are incorporated herein by reference.

The present invention relates to a technique to improve efficiency in wireless connection processing.

In order to ensure the continuity of communication, a cellular communication system uses a handover technique to switch a connection destination of a terminal apparatus in accordance with, for example, movement of the terminal apparatus. In a standard method of handover, after degradation of the communication quality of a wireless link to which a terminal apparatus is currently connected, setting processing for a handover is started on the core network side, and a base station apparatus transmits an instruction message to the terminal apparatus. However, with this method, the processing performed from when the actual degradation of the communication quality occurs until the transmission of a handover instruction is time-consuming, and this can possibly prolong the time period for which communication cannot be performed or for which the communication quality is insufficient. In this regard, the 3rd Generation Partnership Project (3GPP®) has discussed a method in which this setting processing is executed in advance, and in a case where a predetermined condition is satisfied in the terminal apparatus, the connection destination cell is switched without needing to receive an instruction message from the base station apparatus (see NPL 1). The predetermined condition includes, for example, a case where the wireless quality of a neighboring cell has become more favorable than the wireless quality of the cell to which the terminal apparatus is currently connected by a predetermined level or more, and a case where the wireless quality of the cell to which the terminal apparatus is currently connected has become a predetermined value or lower. According to this method, setting processing for a handover is completed on the core network side before the occurrence of, for example, a decrease in the communication quality that requires a handover, and therefore it is possible to significantly reduce the time period for which communication cannot be performed or for which the communication quality is insufficient. Such a handover is referred to as a conditional handover, or a CHO.

Similarly, for example, in multi-connectivity (MC) where a terminal apparatus connects to a plurality of cells, setting processing can be executed in advance, and in a case where a predetermined condition is satisfied in the terminal apparatus, the terminal apparatus can add or change a secondary cell without receiving an instruction message from a base station apparatus. Note that hereinafter, this conditional addition or change of a secondary cell may be referred to as CPAC.

NPL 1:3GPP TR38.874, V16.0.0, December 2018

In a discussion on the release 18 standard of the 3GPP, it was agreed that in the aforementioned setting processing, setting processing is to be executed using a common reference configuration for a plurality of candidate cells, and delta configurations that designate setting values different from that of the reference configuration for the respective candidate cells. However, an execution procedure of such setting processing has been unclear, and there is demand for establishment of an efficient procedure.

The present invention provides a method of efficiently executing setting processing that uses a reference configuration and a delta configuration related to a conditional handover or a conditional secondary cell addition or change, in a terminal apparatus.

A base station apparatus according to one aspect of the present invention comprises an obtaining unit configured to obtain information for generating setting information related to a candidate cell targeted for a conditional secondary cell addition or change (CPAC) in a terminal apparatus that is currently connected to the base station apparatus, the information including a reference configuration and a delta configuration that corresponds to a difference between the setting information and the reference configuration; and a providing unit configured to provide the terminal apparatus with the information and a condition under which the CPAC is to be executed.

A terminal apparatus according to one aspect of the present invention comprises an obtaining unit configured to obtain, from a base station apparatus to which the terminal apparatus is currently connected, information for generating setting information related to a candidate cell targeted for a conditional secondary cell addition or change (CPAC), and a condition under which the CPAC is to be executed, the information including a reference configuration and a delta configuration that corresponds to a difference between the setting information and the reference configuration; a generating unit configured to generate, with respect to the candidate cell, setting information for communication in the candidate cell with use of the delta configuration and the reference configuration, and an executing unit configured to execute the CPAC with use of the generated setting information in response to the condition being satisfied.

Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.

Hereinafter, embodiments will be described in detail with reference to the attached drawings. Note, the following embodiments are not intended to limit the scope of the claimed invention, and limitation is not made to an invention that requires a combination of all features described in the embodiments. Two or more of the multiple features described in the embodiments may be combined as appropriate. Furthermore, the same reference numerals are given to the same or similar configurations, and redundant description thereof is omitted.

1 FIG. shows an exemplary configuration of a wireless communication system according to the present embodiment. The present wireless communication system is a cellular communication system that conforms to, for example, a cellular communication standard, such as the fifth generation (5G) standard defined by the 3rd Generation Partnership Project (3GPP®). Note that this is an example, and the following discussion is applicable to any system in which a terminal apparatus can continue communication while switching a connection destination cell.

1 FIG. 1 FIG. 151 151 151 151 100 151 100 101 102 151 In the wireless communication system of, a base station apparatus provides a wireless communication service to a terminal apparatus. The terminal apparatuscan connect to two or more cells in parallel. Among these two or more cells, a cell that controls communication of the terminal apparatusis referred to as a primary cell, and a cell that connects to the terminal apparatusunder control of a base station apparatus of the primary cell (a master node: MN) is referred to as a secondary cell. Note that in the present embodiment, to simplify the description, it is assumed that the terminal apparatushas been connected to the MN, and is additionally connected to a secondary cell. An example ofrepresents an example in which two base station apparatuses (secondary nodes: SNand SN) provide cells that are candidates for a connection destination as a secondary cell for the terminal apparatus.

1 FIG. 101 111 113 131 133 102 121 123 141 143 151 151 151 A base station apparatus can be composed of a central unit (CU) and distributed units (DU). A DU includes, for example, an antenna, a function of processing signals in a wireless frequency, and the like, and is in charge of a function as an interface that transmits/receives wireless signals to/from the terminal apparatus. Each DU forms at least one cell. On the other hand, the CU is configured to encompass one or more DUs, and perform, for example, control on communication performed by these DUs. For example, the CU generates setting information when the terminal apparatus connects to each DU, and notifies the terminal apparatus of the same. Note that in the example of, the SNcan include functions as a CU, and DUstocan provide a cellto a cell, respectively. Furthermore, the SNsimilarly includes functions as a CU, and DUstoprovide cellsto, respectively. The terminal apparatusis configured to receive the provided wireless communication service by connecting to at least one of these cells and transmitting/receiving wireless signals in this connection destination cell. Note that while the terminal apparatusconnects to a base station apparatus that configures a cell including a position at which the terminal apparatusitself is staying, this will hereinafter be described as “connect to the cell (provided by this base station apparatus)”.

151 151 151 151 151 151 151 In the present embodiment, an advance setting for adding or changing a secondary cell is configured in response to establishment of connection to, for example, a primary cell by the terminal apparatus, or in response to a certain degree of degradation of the wireless quality in a currently-connected secondary cell. A state where this advance setting has been configured is a state where setting of parameters and the like for a case where the terminal apparatusis to connect to a connection destination candidate cell has been completed, but the terminal apparatushas not actually established connection to this cell. The advance setting includes a condition for connecting to a cell for, for example, changing or adding a connection destination cell; the terminal apparatusestablishes synchronization in a new connection destination cell and attempts to connect in a case where it has been determined that this condition has been satisfied. Note that in a case where a connection destination secondary cell is to be changed, the terminal apparatusexecutes processing for disconnecting from a connection source secondary cell. Processing for autonomously switching or adding a secondary cell using such an advance setting when the terminal apparatushas determined that the condition is satisfied is referred to as a Conditional Secondary Cell Addition or Change (CPAC). Note that processing for autonomously switching a connection destination primary cell when the terminal apparatushas determined that the condition is satisfied is referred to as a conditional handover (CHO). Note that although the following embodiment will be described with a focus on the CPAC, it is also applicable to the CHO. That is to say, the following discussion can be applicable to the CHO by replacing a CPAC condition with a CHO condition, and an advance setting for the CPAC with an advance setting for the CHO. Note that although message types can differ between the CHO and the CPAC, a person skilled in the art would be able to replace with appropriate messages as needed.

100 151 100 100 100 151 100 100 151 151 In a case where the CPAC is performed, the currently-connected MNtransmits a message for requesting an addition of a secondary cell (SgNB Addition Request) to other base station apparatuses that provide cells that are candidates for an additional or post-change secondary cell. Note that this request for an addition of a secondary cell may be started when, for example, a base station apparatus that provides a secondary cell to which the terminal apparatusis currently connected has notified the currently-connected MNof a predetermined message (e.g., SgNB Change Required). In this case, the MNcan transmit the above-described request for an addition of a secondary cell in response to reception of this predetermined message. Then, other base station apparatuses that provide cells that are candidates for an additional or post-change secondary cell (hereinafter, these base station apparatuses may be referred to as “candidate base stations”) transmit a response message to this message (SgNB Addition Request Acknowledge) to the MN, with the inclusion of information of, for example, communication parameters that should be used in a case where the terminal apparatushas added or changed a secondary cell. Here, the candidate base stations hold information of, for example, the transmitted communication parameters as advance setting information. Also, the MNor candidate base stations decide a condition that should be satisfied when that secondary cell is added or changed. Then, the MNnotifies the terminal apparatusof information of communication parameters that should be used in a case where a secondary cell has been added or changed while cells provided by the candidate base stations are considered as secondary cells, as well as the advance setting information that includes a condition for making such connection. This notification can be provided using, for example, a Radio Resource Control (RRC) message. In an example, the terminal apparatusis notified of the advance setting information via an RRC Reconfiguration message.

151 151 151 151 100 151 100 151 151 151 100 100 151 100 Here, pieces of information in the advance setting information can be configured to include reference setting information (a reference configuration) that acts as a standard, and setting information (a delta configuration) that is a difference between each piece of setting information of a secondary cell candidate and this reference configuration. The reference configuration is setting information common to a plurality of cells, and the delta configuration is information related to a part of setting information of each cell that is different from the reference configuration. That is to say, the delta configuration is setting information specific to each cell. When the terminal apparatushas received the reference configuration and the delta configuration, regarding setting items that are included in the delta configuration, the terminal apparatususes setting values thereof. On the other hand, regarding setting items that are not included in the delta configuration, the terminal apparatususes setting values designated in the reference configuration. Note that the terminal apparatuscan be configured as follows: among setting items that are not included in the delta configuration, regarding setting items that are defined so that they need to be maintained in the reference configuration (designated as “Need M”), setting values in the reference configuration are to be used, whereas regarding other setting items, setting values in the reference configuration are not to be used. Also, regarding setting items that are defined in the reference configuration so that an operation related to the setting items needs to be performed only once among setting items that are not included in the delta configuration (designated as “Need N”), the MNcan notify the terminal apparatusof information for judging whether to execute the operation related to the setting items only once in accordance with setting values in the reference configuration, or to understand that setting values in the reference configuration are intended to be deleted and judge that the operation related to the setting items is not to be executed. Furthermore, in this case, the MNand the terminal apparatusmay be set in advance so that one of operations is executed fixedly without requiring notification of this information. By using a combination of these reference configuration and delta configuration, a data amount of setting information that the terminal apparatusis notified can be reduced. That is to say, the terminal apparatusis notified of setting information common to N cells as a reference configuration only once with regard to a plurality of cells, and setting information specific to each cell on a cell-by-cell basis via a delta configuration; in this way, among pieces of setting information related to (N−1) cells, the pieces of setting information that correspond to the reference configuration can be omitted in the notification, and thus the data amount of the notified pieces of setting information can be reduced. Also, the MNcan use setting information of one cell among a plurality of cells that are present as candidate cells as a reference configuration, use setting information of a serving cell that is currently used in communication (one of a plurality of cells in a case where the plurality of cells are used as serving cells) as a reference configuration, or use setting information of a cell other than candidate cells and a serving cell(s) as a reference configuration. In this case, the MNcan notify the terminal apparatusof information for specifying which one of pieces of setting information of cells is to be used as a reference configuration. As one example, in a case where setting information of one cell among a plurality of serving cells (or candidate cells) that are present is used as a reference configuration, the MNcan efficiently designate the setting information that is used as the reference configuration using existing identification information that is specifically appended to the setting information, such as CellGroupId, SCellIndex, and condReconfigId.

As described above, a delta configuration is composed of setting items that include setting values different from a reference configuration out of setting information of each cell. Therefore, the smaller the difference between setting information of each cell and a reference configuration, the number of setting items included in a delta configuration decreases, and a data amount of the entire delta configuration can be reduced. On the other hand, if there is a large gap between setting information of each cell and a reference configuration, more setting items are included in a delta configuration, and a data amount thereof also increases. In some cases, almost all of the setting items in the reference configuration are replaced with the setting items in the delta configuration, which could possibly increase a data amount of entire setting information as well.

151 100 151 1 First reference configuration (reference configuration ID=) 2 Second reference configuration (reference configuration ID=) 131 1 Information of the cell(first delta configuration, reference configuration ID=) 132 1 Information of the cell(second delta configuration, reference configuration ID=) . . . 142 2 Information of the cell(fifth delta configuration, reference configuration ID=) 143 2 151 151 131 151 1 131 151 143 131 132 143 131 143 100 151 Information of the cell(sixth delta configuration, reference configuration ID=)Here, a reference configuration ID is identification information that can uniquely specify one reference configuration. The terminal apparatusis notified of pieces of information of the first reference configuration and the second reference configuration as an information element, such as ReferenceConfigAddModlist, among the foregoing pieces of information. Also, the terminal apparatusis notified of information of a delta configuration specific to each cell as a CondReconfigToAddMod information element. The CondReconfigToAddMod information element is, for example, prepared for each candidate cell. The CondReconfigToAddMod information element includes information indicating identification information (condReconfigId) specific to this information element, a cell identifier related to each cell, a reference configuration ID, a condition under which the CPAC should be performed, and a delta configuration of that cell. Note that while the CPAC denotes a Conditional Secondary Cell Addition and Change, different conditions can be prepared for an addition of a secondary cell and a change of a secondary cell. For example, with regard to the cell, the terminal apparatuscan extract the first reference configuration using the information of reference configuration ID=from the received pieces of information, and generate setting information of the cellbased on this first reference configuration and the first delta configuration. Similarly, the terminal apparatuscan generate setting information of the cellusing the second reference configuration and the sixth delta configuration. According to this configuration, for example, even in a case where the pieces of setting information for connection of the cell, the cell, and the cellare significantly different from one another, disadvantages in using a common reference configuration can be eliminated. Note that in one of the cells, a reference configuration itself may be used as setting information of that cell. In other words, setting information of one of the cells can be used as a reference configuration. For example, setting information of the cellmay be used as a first reference configuration, and/or setting information of the cellmay be used as a second reference configuration. In this case, for example, the MNnotifies the terminal apparatusof pieces of information in the following format. 131 1 First reference configuration (cell, reference configuration ID=) 143 2 Second reference configuration (cell, reference configuration ID=) 132 1 Information of the cell(second delta configuration, reference configuration ID=) . . . 142 2 151 151 Information of the cell(fifth delta configuration, reference configuration ID=)Note these are examples, and the terminal apparatusmay be notified of pieces of information in other formats to the extent that the terminal apparatuscan configure setting information of each cell. Note that setting information of each cell includes not only communication parameters, but also a CPAC condition (condExecutionCond, a condition for adding/changing a cell, and an identifier for designating an execution condition that is separately defined). In the present embodiment, in view of the foregoing issue, a plurality of reference configurations can be set, and the terminal apparatusis notified of not only these plurality of reference configurations, but also information indicating which one of these plurality of reference configurations serves as a standard for a delta configuration related to each candidate cell. For example, the MNnotifies the terminal apparatusof pieces of information in the following format.

100 151 100 101 102 In an example, different reference configurations may be used for the respective SNs, or a common reference configuration may be used for a plurality of SNs while another reference configuration is used for one or more other SNs. Also, a plurality of reference configurations may be used within one SN. A group of cells that use such a common reference configuration may be, for example, decided by the MNto which the terminal apparatusis currently connected, or decided by an SN; also, such a group of cells may be decided among the MN, the SN, and the SN. Furthermore, a group that uses a common reference configuration may be determined in advance.

Next, some examples of a flow of processing for deciding a reference configuration and a delta configuration will be described.

100 100 100 100 100 100 100 First, a case where the MNdecides a reference configuration will be described as a first example. Once the MNhas decided a reference configuration, it notifies an SN that provides cells that use this reference configuration of this reference configuration. The SN decides a difference between setting information in each of the cells provided by the self-apparatus and the notified reference configuration as a delta configuration of that cell, and notifies the MNof the delta configuration. Note that the SN may refuse to use the notified reference configuration. In this case, the SN can notify the MNof another reference configuration to be used in place of the notified reference configuration, and a delta configuration generated based on the other reference configuration. Note that the MNmay notify the SN of identification information of the reference configuration of which the SN is notified (reference configuration ID), and one or more pieces of identification information that can be allocated to other reference configurations in a case where the use of this reference configuration is refused. In this case, when notifying the MNof the above-described other reference configurations, the SN can notify the MNof identification information allocated to the above-described other reference configurations.

2 FIG. 100 101 1 201 101 111 113 202 151 101 205 101 151 101 101 101 100 207 101 100 100 100 100 For example, as shown in, the MNtransmits SgNB addition request to the SN, with the inclusion of a first reference configuration (Reference config #) (S). The SNcan agree to use this first reference configuration, and cause each of subordinate DUs (DUsto) to generate a delta configuration by notifying the same of this first reference configuration (S). Each DU prepares setting information that is intended for the UEto connect to the self-apparatus, and notifies the SNof a delta configuration that is information of a difference between this setting information and the first reference configuration (S). Note that the SNmay request each DU to provide a notification of the setting information intended for connection of the UE, and each DU may notify the SNof the setting information. In this case, the SNcan generate a delta configuration related to each DU from the first reference configuration and the notified setting information. Upon obtaining the delta configuration related to each DU, the SNcan notify the MNof information of this delta configuration (S). Note that the SNmay provide the MNwith a notification indicating that the first reference configuration notified by the MNis currently used. Note that a notification from the SN to the MNcan be provided using, for example, an information element of SgNB addition request ACK. For example, a notification of information can be provided using CG-CandidateList. Also, a newly defined information element other than CG-CandidateList may be used. Information exchange between the MNand the SN via an Xn interface may be performed using any message that can be used in this information exchange.

100 102 2 203 102 121 123 204 151 102 206 102 102 102 100 208 102 100 Meanwhile, the MNtransmits SgNB addition request to the SN, with the inclusion of a second reference configuration (Reference config #) (S). The SNcan refuse to use this second reference configuration, and cause each of subordinate DUs (DUsto) to generate a delta configuration by notifying the same of a third reference configuration (S). Each DU prepares setting information that is intended for the UEto connect to the self-apparatus, and notifies the SNof a delta configuration that is information of a difference between this setting information and the third reference configuration (S). In this case also, each DU may notify the SNof the setting information itself, and the SNmay generate delta configurations using the third reference configuration, similarly to the above-described case. Upon obtaining the delta configuration related to each DU, the SNcan notify the MNof information of this delta configuration (S). Note that in this case, the SNnotifies the MNof the third reference configuration that is used in place of the second reference configuration.

Note that transmission/reception of information between a CU and DUs in an SN can be performed using a CPAC-related information element (IE) included in UE context setup request, UE context setup request response, UE context release request, UE context release command, UE context release complete, UE context modification request, or UE context modification response. Also, an IE for communication settings that use the reference configuration may be newly prepared in an existing message of an F1 interface, or a new message of the F1 interface may be prepared. Note that the same goes for the following description. Note that a CU may notify DUs of information using a CU to DU RRCinformation information element, and DUs may notify a CU of information using a DU to CU RRCinformation information element. Note that in a case where one DU forms a plurality of cells, information that designates to which cell information transmitted/received between the DU and a CU is related can also be transmitted/received together.

100 151 209 151 101 102 151 151 111 113 121 123 2 FIG. 2 FIG. Once the MNhas thus obtained the delta configurations related to the respective cells that are candidate cells of a secondary cell, it notifies the UEof information of these delta configurations and the reference configurations (S). In the example of, the UEis notified of the first reference configuration related to setting information of subordinate cells of the SN, the third reference configuration related to setting information of subordinate cells of the SN, and the delta configurations of the respective cells. Here, as stated earlier, the UEis notified of each delta configuration together with information indicating to which reference configuration each delta configuration is related (reference configuration ID). In the example of, the UEis provided with a notification indicating that the delta configurations of the DUstoare associated with the first reference configuration, and the delta configurations of the DUstoare associated with the third reference configuration.

3 FIG. 3 FIG. 3 FIG. 100 101 102 100 100 101 1 2 301 102 3 4 304 100 100 1 101 1 102 100 151 310 101 1 First reference configuration (reference configuration ID=) 2 Second reference configuration (reference configuration ID=) Reference configurations of SN= 102 1 Third reference configuration (reference configuration ID=) Reference configuration of SN= 101 131 1 Information of the cell(first delta configuration, reference configuration ID=) 132 1 Information of the cell(second delta configuration, reference configuration ID=) 133 2 Information of the cell(third delta configuration, reference configuration ID=) Delta configurations of SN= 102 141 1 Information of the cell(fourth delta configuration, reference configuration ID=) 142 1 Information of the cell(fifth delta configuration, reference configuration ID=) 143 1 132 151 101 1 151 132 143 151 102 1 151 143 Information of the cell(sixth delta configuration, reference configuration ID=)For example, in obtaining setting information of the cell, the terminal apparatusextracts the first reference configuration based on SN=and reference configuration ID=. Then, the terminal apparatuscan obtain the setting information of the cellusing this first reference configuration and the second delta configuration. On the other hand, in obtaining setting information of the cell, the terminal apparatusextracts the third reference configuration based on SN=and reference configuration ID=. Then, the terminal apparatuscan obtain the setting information of the cellusing this third reference configuration and the sixth delta configuration. Note that although the above example has been described in relation to an example in which one reference configuration is specified by way of combinations of identification information and a reference configuration ID of each SN, no limitation is intended by this. For example, in a more generalized manner, a cell group may be defined, and one reference configuration may be specified based on identification information and a reference configuration ID of this cell group. Here, the cell group can be a plurality of subordinate cells of a plurality of SNs. Here, subordinate cells of one SN may belong to one group, or one or more subordinate cells of one SN may belong to a first group while other subordinate cells of this SN belong to a second group. In this configuration, too, while two or more reference configurations that have been set in each of two or more groups can be specified by using reference configuration IDs alone, one reference configuration can be uniquely specified by using a reference configuration ID in combination with identification information of a group. Delta configurations of SN= Next, an example in which SNs decide reference configurations will be described as a second example. As shown in, the MNtransmits SgNB addition request to the SNand the SN. Via this SgNB addition request, the MNcan provide the SNs with a notification indicating that reference configurations and delta configurations should be generated. Also, at this time, the MNcan notify each SN of usable reference configuration IDs. In this way, the maximum number of reference configurations that can be set by the SNs can be defined. In the example of, the SNis notified of reference configuration IDs=and(S), and the SNis notified of reference configuration IDs=and(S). Note that in the example of, the MNprovides a notification of reference configuration IDs so that a recognition concerning reference configuration IDs is shared between the MNand the SNs, and also to prevent overlapping of reference configuration IDs used by the SNs. However, this is an example, and the same ID may be set in a plurality of SNs. For example, a reference configuration ID may be designated by using a combination of identification information indicating an SN and an ID thereof. That is to say, a reference configuration with reference configuration ID=for the SNand a reference configuration with reference configuration ID=for the SNcan be configurations that are different from each other. Note that in this case, the MNnotifies the terminal apparatusof the following pieces of information (S).

100 100 Note that the maximum number of SNs that provide candidate cells may be designated in the MN. In this case, in a case where pieces of setting information related to cells provided by SNs exceeding the maximum number should be set, the MNcan instruct SNs so that, regarding such SNs exceeding the maximum number, a reference configuration and a delta configuration are not used, and normal setting information (full configuration) is used as is. In this case, an SN can instruct subordinate DUs to provide a full configuration, rather than a delta configuration.

100 151 151 100 100 Note that in a case where a plurality of SNs (or cell groups) are permitted to use overlapping reference configuration IDs, for example, each SN may be notified of a numerical value indicating the maximum number of reference configurations that can be set in this SN. Note that a plurality of SNs may be notified of a numerical value indicating the maximum number of reference configurations that can be set in each SN, in addition to reference configuration IDs that are notified in the above-described manner so that the plurality of SNs use separate reference configuration IDs. As an example, the MNcan hold the maximum number of reference configurations that can be set in the terminal apparatus, and determine the number of reference configurations that can be further set in the terminal apparatusfrom the number of reference configurations that are currently set (have already been notified) and this maximum number. Then, based on this number, the MNcan decide the aforementioned maximum number of which each SN is to be notified. Also, the MNmay provide the SNs with a notification merely indicating that a reference configuration and a delta configuration should be generated, without notifying them of the numerical value indicating the maximum number and reference configuration IDs. For example, in a case where the maximum number of reference configurations has been determined in advance in the SNs and the like, it is sufficient to provide a notification merely indicating that a reference configuration and a delta configuration should be generated.

302 303 305 306 307 100 308 309 100 101 100 111 112 1 113 2 151 Each SN sets reference configurations within the range of the maximum number of reference configurations that can be set therein. Then, the SN can notify each of subordinate DUs of such reference configurations, and instruct the same to generate a delta configuration (S, S, S). The DUs generate delta configurations based on the notified reference configurations, and notify the SN of the generated delta configurations (S, S). The SN aggregates the delta configurations generated by the respective DUs, and notifies the MNof all of the set reference configurations and delta configurations (S, S). Note that the MNis notified of the delta configurations together with information indicating with which reference configuration they are associated. For example, the SNprovides the MNwith a notification indicating that the delta configurations of the DUand the DUare associated with the reference configuration with reference configuration ID=, and the delta configuration of the DUis associated with the reference configuration of the reference configuration ID=. Note that although the above example has been presented using an example in which an SN generates reference configurations and notifies DUs of the generated reference configurations and the DUs generate delta configurations, no limitation is intended by this. For example, the SN may request the DUs to provide pieces of setting information of which the terminal apparatusshould be notified, aggregate these pieces of setting information, and generate reference configurations based on these pieces of setting information. For example, the SN can generate a reference configuration common to a plurality of pieces of setting information so that, due to the reference configuration, a sum total of the data amounts of delta configurations and the reference configuration becomes the smallest.

102 3 4 3 121 123 102 100 3 100 151 3 FIG. Note that it is not required for an SN to use up all of the reference configuration IDs of which it has been notified. Although the SNcan use reference configuration IDs=andin the example of, it is possible to use only one reference configuration (reference configuration ID=), and generate the delta configurations of the DUstobased on this reference configuration. Then, the SNnotifies the MNof all of these delta configurations and reference configurations, and association between all of the delta configurations and the reference configuration with reference configuration ID=. Thereafter, the MNnotifies the terminal apparatusof the obtained reference configurations and delta configurations, and information indicating with which reference configuration each delta configuration is associated.

100 100 101 401 101 111 113 402 101 111 113 111 113 101 111 113 151 101 100 403 404 4 FIG. 4 FIG. As a third example, the MNcan instruct SNs to generate reference configurations and delta configurations in a case where it does not have reference configurations, and can notify SNs of reference configurations and instruct them to generate delta configurations in a case where it has the reference configurations. For example, as shown in, while the MNdoes not have reference configurations, it instructs the SNto generate a reference configuration and delta configurations (S). Then, the SNcan, for example, generate a reference configuration inside the self-apparatus, and instruct the DUstoto generate delta configurations (S). Note that although the example ofis presented using an example in which the SNgenerates a reference configuration and notifies the DUstoof the generated reference configuration, and the DUstogenerate delta configurations, no limitation is intended by this. For example, the SNmay request the DUstoto provide pieces of setting information of which the terminal apparatusshould be notified, aggregate these pieces of setting information, and generate a reference configuration. In either case, the SNnotifies the MNof the obtained reference configuration and the delta configurations for cells to be formed by the respective DUs (S, S).

100 102 405 100 101 102 102 102 102 102 121 123 406 121 123 102 121 123 407 100 408 102 121 123 100 102 102 100 151 409 4 FIG. It is assumed that the MNthereafter instructs the SNto generate delta configurations (S). In this case, as the MNhas the reference configuration notified by the SN, it can notify the SNof this reference configuration and instruct the SNto generate delta configurations. The SNmay agree to or refuse to use this reference configuration. In the example of, it is assumed that the SNhas refused to use this reference configuration, and decided to use another reference configuration. In this case, the SNnotifies the DUstoof this other reference configuration (S), and the DUstogenerate delta configurations based on this other reference configuration. Then, the SNcan collect the delta configurations from the DUsto(S), and notify the MNof these delta configurations (S). Note that the SNcan, for example, collect pieces of setting information from the DUsto, respectively, and generate differences between these pieces of setting information and the reference configuration notified by the MNas candidates for delta configurations. Then, the SNcan generate another reference configuration in a case where the data amount of these delta configurations exceeds a predetermined value. Note that this is an example, and a standard for generation of another reference configuration by the SNcan be determined in any manner. The MNnotifies the terminal apparatusof the held reference configurations and the collected delta configurations (S).

100 101 102 100 100 100 4 FIG. In the above-described manner, the MNholds the first reference configuration used by the SNand the second reference configuration used by the SNafter the processing ofhas ended. Thereafter, in a case where an advance setting is to be configured while regarding still another cell as a secondary cell candidate, the MNcan notify an SN of the first reference configuration and the second reference configuration, and instruct the SN to generate delta configurations. In this way, the MNcan notify SNs of all of the held reference configurations and instruct the SNs to generate delta configurations. However, this is an example, and the MNmay, for example, notify the SNs of only a part of the held reference configurations, and instruct the SNs to generate delta configurations.

151 100 151 151 100 151 151 151 100 151 1 Reference configuration ID=: Disabled 2 condReconfigId=A: Enabled condReconfigId=B: Disabled Reference configuration ID=: Partially enabled 3 Reference configuration ID=: Entirely enabledNote that in the above-described example, it is assumed that in a case where a part of reference configurations is enabled, information indicating an enabled or disabled state is designated with respect to each of delta configurations that use such reference configurations, whereas in a case where all of reference configurations are enabled, all of delta configurations that use such reference configurations are enabled. However, no limitation is intended by this, and reference configurations may be “enabled” in both of a case where only a part of delta configurations that use reference configurations is enabled and a case where all of them are enabled; in this case, an enabled/disabled state may always be indicated individually with respect to each of the delta configurations that use these reference configurations. In the above-described manner, the terminal apparatuscan obtain reference configurations and delta configurations with respect to a plurality of cells that are considered as candidates for a cell to be added or a post-change cell as a secondary cell. The MNmay transmit an instruction to the terminal apparatusso as to enable only a part of these plurality of cells. For example, along with a movement of the terminal apparatus, the MNcan enable advance settings with respect to cells within a predetermined distance from the position of this terminal apparatus, and disable advance settings with respect to other cells. For example, with regard to cells for which advance settings have been enabled, the terminal apparatuscan reproduce and hold pieces of setting information using reference configurations and delta configurations. Note that the terminal apparatuscan execute measurement of the wireless quality with respect to cells that have been enabled, and refrain from measuring the wireless quality with respect to cells that have not been enabled. The MNcan designate cells to be enabled/disabled using, for example, identification information (condReconfigId) specific to information elements related to each cell. Note that in a case where a plurality of cells that use a common reference configuration are enabled/disabled all at once, a reference configuration ID of this reference configuration may be designated. For example, the terminal apparatuscan be notified of such information as the following.

151 100 151 When the terminal apparatushas measured the wireless quality of measurement target (enabled) cells and determined that a condition for adding/changing a secondary cell has been satisfied in relation to a specific cell, it notifies the MNof a RRC Reconfiguration Complete message and accesses this specific cell. That is to say, the terminal apparatuscan execute a random-access procedure to access this specific cell.

151 151 151 100 Note that although the terminal apparatusmaintains setting information related to a candidate cell after an addition or a change of a secondary cell, it is expected that this setting information should be deleted in a case where, for example, the terminal apparatushas moved far away from this candidate cell. Also, for example, it is expected that at least one of reference configurations and delta configurations need to be changed when, for example, a certain time period has elapsed after the terminal apparatusis notified of reference configurations and delta configurations. Such deletion and change of settings are performed under, for example, an instruction from the MN.

100 151 151 100 151 100 151 151 100 The MNor SNs that are currently connected to the terminal apparatuscan, for example, decide to delete reference configurations set in the terminal apparatusin response to a change and an addition of a secondary cell candidate, or in response to setting of a new communication parameter that is based on reference configurations and delta configurations. Hereinafter, the MNor SNs that are currently connected to the terminal apparatusmay be referred to as a “network”. Note that a network node other than the MNand SNs may decide to delete reference configurations set in the terminal apparatus, and transmit an instruction for such deletion to the terminal apparatusvia the MNand SNs.

151 151 151 151 151 151 151 For example, a network can decide to delete any reference configuration when the number of set reference configurations has reached the maximum number (exceeded the maximum number). The network can transmit an instruction to the terminal apparatusso as to, for example, delete the oldest reference configuration. Also, the network can decide a reference configuration to be deleted based on the result of measurement of wireless qualities in the terminal apparatus. For example, the network may specify the maximum values of wireless qualities of cells that use each of a plurality of reference configurations, and decide to delete a reference configuration with the smallest maximum value (or which is not used in a cell that can be determined to have a favorable wireless quality). Also, the network may, for example, delete delta configurations related to cells that are distanced from the position of the terminal apparatusby a predetermined distance or more along with a movement of the terminal apparatusand the like, and decide to delete a specific reference configuration in a case where all of delta configurations that refer to this specific reference configuration have been deleted. Furthermore, the network may instruct the terminal apparatusthat sets reference configurations to delete a reference configuration, and cause the terminal apparatusto select which reference configuration is to be deleted. In this case, the terminal apparatuscan select and delete a reference configuration, and notify the network of a reference configuration ID of this deleted reference configuration.

151 100 100 2 1 2 100 2 1 The network excludes, from secondary cell candidates for the terminal apparatus, a cell that has generated a delta configuration using a reference configuration to be deleted. For example, the MNcan transmit a SgNB release request to an SN including a subordinate cell that uses the reference configuration to be deleted, and instruct the SN to delete setting information related to this cell. Note that in a case where a specific reference configuration is to be deleted and delta configurations that refer to this specific reference configuration are maintained, all of these delta configurations will be deleted. Also, cells corresponding to these delta configurations are excluded from secondary cell candidates. Note that in a case where a specific reference configuration is to be deleted and delta configurations that refer to this specific reference configuration are maintained, these delta configurations may be reconfigured based on another reference configuration. Note that in this case, the MNcan designate the other reference configuration, and instruct an SN including subordinate cells that use these delta configurations to update the delta configurations. Note that in this case, the SN may be forced to use the other reference configuration. That is to say, it is possible to forbid the SN from refusing to use this other reference configuration. For example, assume that it has been decided to delete a reference configuration with reference configuration ID=in a state where reference configurations with reference configuration ID=andare used in one SN. In this case, the MNcan instruct this SN to reconfigure delta configurations that are based on the reference configuration with reference configuration ID=with use of the reference configuration with reference configuration ID=. Note that reference configurations used in any cell can be left undeleted.

151 100 100 100 100 100 100 100 151 100 Also, configuration may be such that, even in a case where the terminal apparatushas stopped the use of a secondary cell or in a case where it has performed a handover of a primary cell, reference configurations and delta configurations are not be deleted unless the MNhas issued an explicit instruction. However, no limitation is intended by this. For example, a reference configuration generated by an MNthat is a handover source can be deleted. On the other hand, reference configurations generated by SNs may be left undeleted. Note that in this case, the MNthat is the handover source can notify an MNthat is a handover destination of, for example, reference configuration IDs and the contents of corresponding reference configurations, SNs that have generated these reference configurations, and information of candidate cells of a secondary cell. Also, the MNthat is the handover source can notify the MNthat is the handover destination of information of delta configurations that refer to these reference configurations (IDs of the delta configurations, the contents of the delta configurations, and a condition for adding/changing cells corresponding to these delta configurations). As a result, the MNthat is the handover destination is no longer required to re-execute setting processing for adding/changing secondary cells. Also, for example, in a case where the use of a secondary cell has been stopped, a case where a handover of a primary cell has been performed, or a case where the use of a primary cell is to be terminated or halted (in a case where an RRC state makes a transition from a connected mode to an idle mode or an inactive mode), the terminal apparatuscan voluntarily delete reference configurations and delta configurations, or either of them, without waiting for an explicit instruction from the MN. In this case, as it is no longer required for the network side to execute processing for reducing a dynamic memory for holding reference configurations, and sharing reference configurations and delta configurations with another base station apparatus, implementation on the network side can be simplified.

100 151 In a case where a reference configuration is to be changed, a “delta-reference configuration” indicating only setting items that should be changed out of the reference configuration may be used. Regarding setting items set in the delta-reference configuration, the reference configuration can be changed using the values of these setting items; regarding other setting items, the reference configuration can be maintained. At this time, there is a case where a delta configuration is also changed as a result of changing the reference configuration. Therefore, a “delta-delta configuration” indicating only setting items that should be changed out of the delta configuration may be used. Regarding setting items set in the delta-delta configuration, the delta configuration can be changed using the values of these setting items; regarding other setting items, the delta configuration can be maintained. In this way, when changing a reference configuration (and a delta configuration), only differential values thereof are exchanged among the MN, SNs, and the terminal apparatus, and thus setting information can be updated using a small data amount. Note that in a case where a reference configuration and a delta configuration are significantly changed, the reference configuration and the delta configuration that were used up until that time may be replaced with a reference configuration and a delta configuration that have been newly generated, without using a delta-reference configuration and a delta-delta configuration. That is to say, the reference configuration and the delta configuration that were used up until that time can be deleted, and the reference configuration and the delta configuration that have been newly generated can be stored in the terminal apparatus.

151 151 151 151 151 When changing a reference configuration, a network notifies the terminal apparatusof one of (1) a delta-reference configuration and (2) a reference configuration that has been newly generated. In a case where the terminal apparatushas received the delta-reference configuration, it replaces setting items designated by the delta-reference configuration among setting items in the reference configuration that is currently used with setting values in this delta-reference configuration. Also, in a case where the terminal apparatushas received the reference configuration that has been newly generated, it replaces the entirety of the held reference configuration with the reference configuration that has been newly generated. Furthermore, in a case where a change has been made to setting items that are not designated by delta configurations related to respective cells that use this reference configuration, the terminal apparatusupdates setting information by changing these setting items related to these cells. This configuration could possibly lead to an occurrence of a case where, even if a reference configuration has been changed, setting information related to each cell is not updated based on delta configurations. However, the terminal apparatusmaintains the updated reference configuration for use in later generation of setting information that uses a delta configuration of another cell. Note that when updating a reference configuration, the reference configuration to be updated can be designated using a reference configuration ID. Note that the updated reference configuration may take over a reference configuration ID of the pre-update reference configuration, or a new reference configuration ID may be assigned to the updated reference configuration.

151 151 151 151 151 On the other hand, when changing a delta configuration, a network notifies the terminal apparatusof one of (1) a delta-delta configuration and (2) a delta configuration that has been newly generated. In a case where the terminal apparatushas received a delta-delta configuration related to a specific cell, it replaces setting items designated by the delta-delta configuration among setting items in a delta configuration that is currently used in relation to this cell with setting values in this delta-delta configuration. Also, in a case where the terminal apparatushas received a delta configuration that has been newly generated in relation to a specific cell, it replaces the entirety of the held delta configuration of this cell with the delta configuration that has been newly generated. Note that when updating a delta configuration, the delta configuration to be updated can be designated by a cell identifier or condReconfigId. In accordance with a change in a delta configuration, the terminal apparatusupdates setting information of a cell that uses this delta configuration. The terminal apparatuschanges setting items in the updated delta configuration out of setting information of the cell corresponding to the updated delta configuration in accordance with the update of this delta configuration, thereby updating the setting information.

151 151 100 100 151 100 100 151 Note that when a network notifies the terminal apparatusof a delta-reference configuration for an existing first reference configuration and transmits thereto an instruction indicating that a second reference configuration should be generated, the network may provide an instruction indicating that the first reference configuration should be maintained as is. For example, regarding a part of a plurality of cells that use the first reference configuration, the second reference configuration can be used as a reference configuration, whereas regarding other cells, a new second reference configuration that is based on the existing first reference configuration can be generated and the first reference configuration can be maintained in a case where the first reference configuration is used as a reference configuration. Note that in this case, a reference configuration ID can be newly appended to the second reference configuration, and the terminal apparatuscan be notified of this reference configuration ID. Note that in a case where the MNhas decided to change a reference configuration, the MNcan instruct an SN that is using this reference configuration to change the reference configuration in a manner similar to the above-described notification to the terminal apparatus. Also, in a case where an SN has decided to change a reference configuration, the SN can request the MNto change the reference configuration by designating this reference configuration, and change the reference configuration in a case where this request has been approved. In this case, in a case where the MNhas approved the change of the reference configuration, it notifies the SN of information indicating the approval, and also notifies the terminal apparatusof the approved reference configuration.

5 FIG. 501 503 501 502 503 504 Note that although the above description has been provided in relation to processing for a case where one of a reference configuration and a delta configuration is updated, both of a reference configuration and a delta configuration can be updated as shown in, for example. That is to say, which one of a reference configuration and a delta configuration should be updated is determined (S, S). Then, in a case where the reference configuration should be updated (YES of S), a delta-reference configuration or a reference configuration that has been newly prepared is provided to the terminal apparatus (and an SN as necessary) (S). Similarly, in a case where the delta configuration should be updated (YES of S), a delta-delta configuration or a delta configuration that has been newly prepared is provided to the terminal apparatus (and an SN as necessary) (S).

151 151 151 151 151 Note that although the terminal apparatuscan generate setting information related to each cell based on the obtained reference configuration and delta configuration, it is necessary to check whether this setting information is appropriate. For example, the terminal apparatuscan determine that this setting information is not appropriate in a case where this setting information includes a parameter that exceeds the capability of the self-apparatus (i.e., cannot be executed by the terminal apparatus). Furthermore, the terminal apparatuscan determine that this setting information is not appropriate also in a case where the setting information does not include necessary parameters, in a case where the terminal apparatuscannot construe the content of this setting information, and the like. For example, in a case where a reference configuration has been deleted by mistake, necessary parameters could possibly be absent when only a delta configuration is used, and it is thus determined that the setting information is not appropriate.

6 FIG. 601 151 602 603 151 151 151 100 604 151 151 151 151 For example, as shown in, at the time point of obtainment of a reference configuration and a delta configuration with respect to a secondary cell candidate (S), the terminal apparatuscan generate setting information of this cell using these pieces of information (S), and determine whether this setting information is appropriate (S). That is to say, with regard to a cell under an environment where setting information can be prepared (both of a reference configuration and a delta configuration are ready), the terminal apparatusdetermines whether this setting information can be used. Then, in a case where the setting information that has been generated using a combination of the reference configuration and the delta configuration is appropriate, the terminal apparatusmaintains this setting information. On the other hand, in a case where this setting information is not appropriate, the terminal apparatusnotifies a network (the MNor an SN that is currently connected) of a reference configuration ID and identification information of a delta configuration (condReconfigId) (S). This notification is provided using, for example, an RRC Reconfiguration Complete message. Here, the network is notified of information indicating that an error has occurred. This notification can be provided by, for example, setting failuretype in the message at srb3-IntegrityFailure or scg-reconfigFailure. Upon receiving this notification, the network notifies the terminal apparatusof the reference configuration, the delta configuration, and the reference configuration ID based on the reference configuration ID and the identification information of the delta configuration. Note that the terminal apparatusmay determine which one of the reference configuration and the delta configuration is not appropriate, and notify the network so that the configuration that has caused the inappropriateness is transmitted. Note that in a case where a parameter that cannot be used by the terminal apparatushas been set, the network can instruct an SN to re-set the reference configuration and the delta configuration. In this way, the terminal apparatuscan determine the appropriateness of setting information before actually adding/changing a secondary cell, and appropriate setting information can be prepared in advance.

7 FIG. 151 701 702 151 703 151 151 151 704 151 151 151 Also, as shown in, the terminal apparatusmay not generate setting information at the time point of obtainment of a reference configuration and a delta configuration, and generate setting information with respect to, for example, a cell in which the result of measurement of the wireless quality satisfies a predetermined condition (S, S). In this case, the terminal apparatuschecks the appropriateness with regard to the generated setting information (S). In a case where the generated setting information has been determined to be inappropriate, the terminal apparatuscan subsequently generate setting information with respect to another cell in which the result of measurement of the wireless quality satisfies the predetermined condition. Note that even if there are no secondary cells in which the result of measurement of the wireless quality satisfies the predetermined condition, in a case where there is another cell that is more favorable in wireless quality than a current secondary cell and setting information in this cell is appropriate, the terminal apparatuscan switch the connection to this cell. In a case where there is inappropriate setting information, the terminal apparatuscan provide a network with a notification related to inappropriate setting information in the above-described manner (S). In an example, after connecting to a cell with appropriate setting information, the terminal apparatuscan notify the network of a reference configuration ID and identification information of a delta configuration (condReconfigId) corresponding to this inappropriate setting information with use of UE assistance information. Upon receiving this notification, the network modifies the reference configuration and delta configuration based on the reference configuration ID and the identification information of the delta configuration, and notifies the terminal apparatusof the reference configuration, the delta configuration, and the reference configuration ID again. In this way, setting information is not generated at the time point of obtainment of a reference configuration and a delta configuration, and setting information is generated when the predetermined condition, such as a condition on the wireless quality, has been satisfied and the appropriateness thereof is evaluated; as a result, the capacity of a memory that holds setting information in the terminal apparatuscan be reduced.

151 151 151 Note that in a case where setting information of a serving cell is used as a reference configuration, there is a possibility that the setting information of the serving cell is changed from the time point of obtainment of a reference configuration and a delta configuration to the time point when the result of measurement of the wireless quality of any candidate cell satisfies the predetermined condition. In this case, as the reference configuration is also changed, the generated setting information can be different between a case where the setting information of this cell is generated using pieces of information of the reference configuration and the delta configuration at the time point of obtainment of the reference configuration and the delta configuration, and a case where the setting information of this cell is generated at the time point when the result of measurement of the wireless quality of a candidate cell satisfies the predetermined condition. Therefore, it is necessary for the network and the terminal apparatusto agree upon which time point the setting information of the cell is to be generated. Therefore, the network may notify the terminal apparatusof information designating at which timing the setting information of the cell is to be generated. Also, the network and the terminal apparatusmay be pre-set so that the setting information of the cell is generated at a fixed timing that has been arbitrarily set in advance, without providing a notification of such information.

151 151 151 151 151 151 In a case where setting information of a serving cell is used as a reference configuration, the terminal apparatuscan save the setting information of the serving cell held in the terminal apparatusas the reference configuration at the time point of obtainment of the reference configuration and a delta configuration. Also, in order to reduce the capacity of a memory that holds setting information in the terminal apparatus, it is also possible to save setting information of the serving cell as a reference configuration at the time point when the predetermined condition, such as a condition on the wireless quality, has been satisfied, without saving a reference configuration at the time point of obtainment of the reference configuration and a delta configuration. Note that in a case where the terminal apparatussaves setting information of the serving cell as a reference configuration at the time point of obtainment of a reference configuration and a delta configuration, it is expected that the contents of the setting information of the serving cell and the reference configuration do not match if an instruction for changing the settings of the serving cell is received from a network after saving the reference configuration. Therefore, to prevent this inconsistency, in a case where an instruction for changing the settings of the serving cell has been received from a network after saving a reference configuration, the network can transmit an instruction to the terminal apparatusso as to make changes of the same content to both of the serving cell and the reference configuration. In this case, the network may issue an instruction for only changing the settings of the serving cell, rather than issuing overlapping instructions on the content of change, and the terminal apparatusmay voluntarily make a change of the same content as the settings of the serving cell to the reference configuration even without an explicit instruction.

151 Also, regarding each setting item in setting information related to a cell, two types of information categories, namely mandatory (indispensable) and optional (dispensable), are defined; in a case where the terminal apparatusis not notified of a setting item that is considered mandatory (indispensable), setting information is determined to be inappropriate. Therefore, with a message format (a style of a message) that provides a notification of setting information related to a conventional cell that does not use a reference configuration, a mandatory (indispensable) setting item needs to be included. However, in a case where setting information is generated using a reference configuration and a delta configuration, a notification of a setting item that is considered mandatory (indispensable) among setting items related to a candidate cell may be provided by being included in the delta configuration, rather than being included in the reference configuration. In this case, a mandatory (indispensable) setting item can be omitted in the reference configuration.

8 FIG. 100 151 100 151 801 802 803 804 805 801 100 151 802 804 802 100 151 803 801 804 805 100 151 is a diagram showing an exemplary hardware configuration of the aforementioned MN, SNs, and terminal apparatus. In an example, the MN, SNs, and terminal apparatusare configured to include a processor, a ROM, a RAM, a storage apparatus, and a communication circuit. The processoris a computer that is configured to include one or more processing circuits, such as a general-purpose CPU (central processing unit) and an ASIC (application-specific integrated circuit), and executes overall processing of the MN, SNs, and terminal apparatusand each process to be described later by reading out a program stored in the ROMand the storage apparatusand executing the program. The ROMis a read-only memory that stores information, such as programs and various types of parameters, related to processing executed by the MN, SNs, and terminal apparatus. The RAMis a random-access memory that functions as a working space at the time of execution of a program by the processor, and stores temporary information. The storage apparatusis composed of, for example, an attachable and removable external storage apparatus or the like. The communication circuitis a communication circuit that is intended for mutual communication among the MN, SNs, and terminal apparatus, and includes a wired interface or a wireless interface.

9 FIG. 9 FIG. 9 FIG. 9 FIG. 151 801 802 151 151 901 902 903 904 905 151 is a diagram for a general description of an exemplary functional configuration of the terminal apparatus. Note that each functional unit shown inmay be embodied by, for example, the processorexecuting a program stored in the ROMand the like, or dedicated hardware that realizes each function may be prepared. Also,particularly shows functions related to processing according to the present embodiment, and the terminal apparatuscan naturally include functions as a normal terminal apparatus that performs communication conforming to, for example, a cellular communication standard of the 3GPP®. Furthermore, two or more functional blocks shown inmay be integrated and realized as one functional block, and one functional block may be divided into a plurality of functional blocks. The terminal apparatusincludes, as functions thereof, a reference configuration obtainment unit, a delta configuration obtainment unit, a setting information generation unit, an appropriateness determination unit, and an information notification unit, for example. Note that although these are described here as functions related to a secondary cell, the terminal apparatuscan include similar functions also in relation to a candidate cell of a handover destination of a primary cell.

901 100 901 902 100 151 903 903 151 904 903 151 151 905 100 901 902 The reference configuration obtainment unitobtains, for example, a reference configuration that can be used for setting information of candidate cells for an addition/change of a secondary cell from the MN. The reference configuration obtainment unitobtains information in which the reference configuration and a reference configuration ID thereof are associated with each other. The delta configuration obtainment unitobtains delta configurations to be used in generation of the setting information related to the respective candidate cells mentioned above. A delta configuration is information specific to a cell, and is obtained in a format in which it is associated with a reference configuration ID to indicate with which reference configuration it should be used with. Note that although the reference configuration and delta configurations can be obtained all at once (within one message) from the MN, no limitation is necessarily intended by this. That is to say, a reference configuration may be obtained in a first message, and a delta configuration may be obtained in a second message that is different from the first message. Also, the terminal apparatusmay be notified of only one of a reference configuration and a delta configuration in a case where setting information is to be updated. The setting information generation unitcombines an obtained delta configuration and a reference configuration with a reference configuration ID associated with this delta configuration, and generates setting information of a candidate cell related to this delta configuration. Note that the setting information generation unitmay generate setting information at the time point of obtainment of a reference configuration and a delta configuration, or may generate setting information with respect to, for example, a cell in which the wireless quality measured by the terminal apparatussatisfies the predetermined condition and refrain from generating setting information unless the predetermined condition is satisfied. The appropriateness determination unitevaluates, for example, whether setting information generated by the setting information generation unitcan be used by the terminal apparatus, whether an indispensable parameter is missing, and whether the terminal apparatuscan interpret the setting information, thereby determining whether the setting information is appropriate. In a case where the setting information is not appropriate, the information notification unitprovides a predetermined notification to the MNand SN that is currently connected. Thereafter, in a case where at least one of a reference configuration and a delta configuration has been updated, the reference configuration obtainment unitor the delta configuration obtainment unitcan obtain information, and setting information can be updated.

10 FIG. 10 FIG. 10 FIG. 10 FIG. 100 801 802 100 100 1001 1002 1003 1004 1005 100 is a diagram for a general description of an exemplary functional configuration of the MN. Note that each functional unit shown inmay be embodied by, for example, the processorexecuting a program stored in the ROMand the like, or dedicated hardware that realizes each function may be prepared. Also,particularly shows functions related to processing according to the present embodiment, and the MNcan naturally include functions as a normal base station apparatus that performs communication conforming to, for example, a cellular communication standard of the 3GPP®. Furthermore, two or more functional blocks shown inmay be integrated and realized as one functional block, and one functional block may be divided into a plurality of functional blocks. The MNincludes, as functions thereof, a setting generation instruction unit, a reference configuration obtainment unit, a delta configuration obtainment unit, an update processing unit, and an information notification unit, for example. Note that although the present description is provided in relation to a secondary cell, the MNcan include similar functions also in relation to a candidate cell of a handover destination of a primary cell.

1001 1001 1001 1002 1002 1003 1004 1004 1002 1003 1005 151 1005 151 The setting generation instruction unitinstructs an SN that includes a candidate cell of a secondary cell as its subordinate to generate setting information for connecting to this cell. Here, the setting generation instruction unitinstructs the SN to generate setting information in a format that uses a combination of a reference configuration and a delta configuration, for example. For example, when the number of reference configurations has reached the maximum number, the setting generation instruction unitcan instruct the SN to generate a full configuration so that a reference configuration is not newly set thereafter. The reference configuration obtainment unitcan generate, for example, a reference configuration in the self-apparatus. Also, the reference configuration obtainment unitcan receive, for example, a reference configuration generated by the SN from this SN. The delta configuration obtainment unitobtains, from the SN, delta configurations that are respectively specific to subordinate cells of this SN. A delta configuration is associated with a reference configuration ID indicating with which reference configuration the delta configuration should be combined. For example, when it has become necessary to update at least one of a reference configuration and a delta configuration, the update processing unittransmits an instruction to the SN to newly generate a reference configuration and a delta configuration. After the update processing unithas transmitted this instruction, the reference configuration obtainment unitand the delta configuration obtainment unitobtain at least one of the updated reference configuration and delta configuration. The information notification unitprovides the obtained reference configuration and delta configuration to the terminal apparatus. The information notification unitcan notify the terminal apparatusof information including a reference configuration ID indicating with which reference configuration the delta configuration should be combined.

11 FIG. 11 FIG. 11 FIG. 11 FIG. 101 102 801 802 101 102 101 102 1101 1102 1103 1104 is a diagram for a general description of an exemplary functional configuration of the SNand SN. Note that each functional unit shown inmay be embodied by, for example, the processorexecuting a program stored in the ROMand the like, or dedicated hardware that realizes each function may be prepared. Also,particularly shows functions related to processing according to the present embodiment, and the SNand SNcan naturally include functions as a normal base station apparatus that performs communication conforming to, for example, a cellular communication standard of the 3GPP®. Furthermore, two or more functional blocks shown inmay be integrated and realized as one functional block, and one functional block may be divided into a plurality of functional blocks. The SNand SNinclude, as functions thereof, an instruction reception unit, a reference configuration obtainment unit, a delta configuration obtainment unit, and an information notification unit, for example. Note that although the present description is provided in relation to a secondary cell, a base station apparatus that is an MN candidate, in place of the SNs, can include similar functions in relation to a candidate cell of a handover destination of a primary cell.

1101 1101 1101 1101 1101 1101 1102 1101 1101 1102 1103 1102 1103 1104 1104 1104 The instruction reception unitreceives an instruction from the MN. For example, the instruction reception unitcan receive, from the MN, a message with an instruction indicating that a delta configuration should be generated. Also, the instruction reception unitcan further receive, from the MN, an instruction indicating that a reference configuration should be generated. For example, in a case where the instruction reception unithas received an instruction including a reference configuration generated by the MN, it can specify that this instruction is an instruction for generating a delta configuration. Also, in a case where the instruction reception unithas received an instruction that does not include a reference configuration, it can specify that this instruction is an instruction for generating a reference configuration and a delta configuration. Furthermore, the instruction reception unitcan receive an instruction for updating at least one of a reference configuration and a delta configuration from the MN. The reference configuration obtainment unitcan obtain, for example, a reference configuration included in an instruction received by the instruction reception unit. Also, for example, in a case where an instruction received by the instruction reception unitdoes not include a reference configuration, and in a case where the use of the reference configuration included in the instruction is to be refused, the reference configuration obtainment unitgenerates and obtains a new reference configuration. The delta configuration obtainment unitobtains a difference between setting information for communication in a subordinate cell and the reference configuration obtained by the reference configuration obtainment unitas a delta configuration. Note that the delta configuration obtainment unitcan, for example, cause a subordinate DU to generate a delta configuration, and obtain this generated delta configuration from the DU. The information notification unitnotifies the MN of information of the obtained delta configuration. Note that in a case where a reference configuration has been generated in the SN, the information notification unitnotifies the MN of this reference configuration. Note that the information notification unitnotifies the MN of a reference configuration ID, which indicates with which reference configuration the delta configuration should be combined, in association with the delta configuration.

151 Note that at least a part of the above-described functions as the MN may be fulfilled by an SN to which the terminal apparatusis currently connected.

As described above, according to the present embodiment, it is possible to appropriately set and manage setting information for performing communication in a cell to which the terminal apparatus should be newly connected, with use of a reference configuration and a delta configuration. Therefore, setting processing that uses a reference configuration and a delta configuration related to a conditional handover, or a conditional secondary cell addition or change, can be efficiently executed on the terminal apparatus. This makes it possible to contribute to Goal 9 of Sustainable Development Goals (SDGs) led by the United Nations, which is to “build resilient infrastructure, promote inclusive and sustainable industrialization, and foster innovation”.

The present invention makes it possible to efficiently execute setting processing that uses a reference configuration and a delta configuration related to a conditional handover or a conditional secondary cell addition or change, in a terminal apparatus.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.